%{ #include "a.h" %} %union { Sym *sym; long lval; double dval; char sval[8]; Gen gen; } %left '|' %left '^' %left '&' %left '<' '>' %left '+' '-' %left '*' '/' '%' %token LMOVW LMOVB LABS LLOGW LSHW LADDW LCMP LCROP %token LBRA LFMOV LFCONV LFCMP LFADD LFMA LTRAP LXORW %token LNOP LEND LRETT LWORD LTEXT LDATA LRETRN %token LCONST LSP LSB LFP LPC LCREG LFLUSH %token LREG LFREG LR LCR LF LFPSCR %token LLR LCTR LSPR LSPREG LSEG LMSR %token LSCHED LXLD LXST LXOP LXMV %token LRLWM LMOVMW LMOVEM LMOVFL LMTFSB LMA %token LFCONST %token LSCONST %token LNAME LLAB LVAR %type con expr pointer offset sreg %type addr rreg regaddr name creg freg xlreg lr ctr %type imm ximm fimm rel psr lcr cbit fpscr fpscrf seg msr mask %% prog: | prog line line: LLAB ':' { if($1->value != pc) yyerror("redeclaration of %s", $1->name); $1->value = pc; } line | LNAME ':' { $1->type = LLAB; $1->value = pc; } line | LNAME '=' expr ';' { $1->type = LVAR; $1->value = $3; } | LVAR '=' expr ';' { if($1->value != $3) yyerror("redeclaration of %s", $1->name); $1->value = $3; } | LSCHED ';' { nosched = $1; } | ';' | inst ';' | error ';' inst: /* * load ints and bytes */ LMOVW rreg ',' rreg { outcode($1, &$2, NREG, &$4); } | LMOVW addr ',' rreg { outcode($1, &$2, NREG, &$4); } | LMOVW regaddr ',' rreg { outcode($1, &$2, NREG, &$4); } | LMOVB rreg ',' rreg { outcode($1, &$2, NREG, &$4); } | LMOVB addr ',' rreg { outcode($1, &$2, NREG, &$4); } | LMOVB regaddr ',' rreg { outcode($1, &$2, NREG, &$4); } /* * load floats */ | LFMOV addr ',' freg { outcode($1, &$2, NREG, &$4); } | LFMOV regaddr ',' freg { outcode($1, &$2, NREG, &$4); } | LFMOV fimm ',' freg { outcode($1, &$2, NREG, &$4); } | LFMOV freg ',' freg { outcode($1, &$2, NREG, &$4); } | LFMOV freg ',' addr { outcode($1, &$2, NREG, &$4); } | LFMOV freg ',' regaddr { outcode($1, &$2, NREG, &$4); } /* * store ints and bytes */ | LMOVW rreg ',' addr { outcode($1, &$2, NREG, &$4); } | LMOVW rreg ',' regaddr { outcode($1, &$2, NREG, &$4); } | LMOVB rreg ',' addr { outcode($1, &$2, NREG, &$4); } | LMOVB rreg ',' regaddr { outcode($1, &$2, NREG, &$4); } /* * store floats */ | LMOVW freg ',' addr { outcode($1, &$2, NREG, &$4); } | LMOVW freg ',' regaddr { outcode($1, &$2, NREG, &$4); } /* * floating point status */ | LMOVW fpscr ',' freg { outcode($1, &$2, NREG, &$4); } | LMOVW freg ',' fpscr { outcode($1, &$2, NREG, &$4); } | LMOVW freg ',' imm ',' fpscr { outgcode($1, &$2, NREG, &$4, &$6); } | LMOVW fpscr ',' creg { outcode($1, &$2, NREG, &$4); } | LMOVW imm ',' fpscrf { outcode($1, &$2, NREG, &$4); } | LMTFSB imm ',' con { outcode($1, &$2, $4, &nullgen); } /* * field moves (mtcrf) */ | LMOVW rreg ',' imm ',' lcr { outgcode($1, &$2, NREG, &$4, &$6); } | LMOVW rreg ',' creg { outcode($1, &$2, NREG, &$4); } | LMOVW rreg ',' lcr { outcode($1, &$2, NREG, &$4); } /* * integer operations * logical instructions * shift instructions * unary instructions */ | LADDW rreg ',' sreg ',' rreg { outcode($1, &$2, $4, &$6); } | LADDW imm ',' sreg ',' rreg { outcode($1, &$2, $4, &$6); } | LADDW rreg ',' imm ',' rreg { outgcode($1, &$2, NREG, &$4, &$6); } | LADDW rreg ',' rreg { outcode($1, &$2, NREG, &$4); } | LADDW imm ',' rreg { outcode($1, &$2, NREG, &$4); } | LLOGW rreg ',' sreg ',' rreg { outcode($1, &$2, $4, &$6); } | LLOGW rreg ',' rreg { outcode($1, &$2, NREG, &$4); } | LSHW rreg ',' sreg ',' rreg { outcode($1, &$2, $4, &$6); } | LSHW rreg ',' rreg { outcode($1, &$2, NREG, &$4); } | LSHW imm ',' sreg ',' rreg { outcode($1, &$2, $4, &$6); } | LSHW imm ',' rreg { outcode($1, &$2, NREG, &$4); } | LABS rreg ',' rreg { outcode($1, &$2, NREG, &$4); } | LABS rreg { outcode($1, &$2, NREG, &$2); } /* * multiply-accumulate */ | LMA rreg ',' sreg ',' rreg { outcode($1, &$2, $4, &$6); } /* * move immediate: macro for cau+or, addi, addis, and other combinations */ | LMOVW imm ',' rreg { outcode($1, &$2, NREG, &$4); } | LMOVW ximm ',' rreg { outcode($1, &$2, NREG, &$4); } /* * condition register operations */ | LCROP cbit ',' cbit { outcode($1, &$2, $4.reg, &$4); } | LCROP cbit ',' con ',' cbit { outcode($1, &$2, $4, &$6); } /* * condition register moves * move from machine state register */ | LMOVW creg ',' creg { outcode($1, &$2, NREG, &$4); } | LMOVW psr ',' creg { outcode($1, &$2, NREG, &$4); } | LMOVW lcr ',' rreg { outcode($1, &$2, NREG, &$4); } | LMOVW psr ',' rreg { outcode($1, &$2, NREG, &$4); } | LMOVW seg ',' rreg { int r; r = $2.offset; $2.offset = 0; outcode($1, &$2, r, &$4); } | LMOVW rreg ',' seg { int r; r = $4.offset; $4.offset = 0; outcode($1, &$2, r, &$4); } | LMOVW xlreg ',' rreg { outcode($1, &$2, NREG, &$4); } | LMOVW rreg ',' xlreg { outcode($1, &$2, NREG, &$4); } | LMOVW creg ',' psr { outcode($1, &$2, NREG, &$4); } | LMOVW rreg ',' psr { outcode($1, &$2, NREG, &$4); } /* * branch, branch conditional * branch conditional register * branch conditional to count register */ | LBRA rel { outcode($1, &nullgen, NREG, &$2); } | LBRA addr { outcode($1, &nullgen, NREG, &$2); } | LBRA '(' xlreg ')' { outcode($1, &nullgen, NREG, &$3); } | LBRA ',' rel { outcode($1, &nullgen, NREG, &$3); } | LBRA ',' addr { outcode($1, &nullgen, NREG, &$3); } | LBRA ',' '(' xlreg ')' { outcode($1, &nullgen, NREG, &$4); } | LBRA creg ',' rel { outcode($1, &$2, NREG, &$4); } | LBRA creg ',' addr { outcode($1, &$2, NREG, &$4); } | LBRA creg ',' '(' xlreg ')' { outcode($1, &$2, NREG, &$5); } | LBRA con ',' rel { outcode($1, &nullgen, $2, &$4); } | LBRA con ',' addr { outcode($1, &nullgen, $2, &$4); } | LBRA con ',' '(' xlreg ')' { outcode($1, &nullgen, $2, &$5); } | LBRA con ',' con ',' rel { Gen g; g = nullgen; g.type = D_CONST; g.offset = $2; outcode($1, &g, $4, &$6); } | LBRA con ',' con ',' addr { Gen g; g = nullgen; g.type = D_CONST; g.offset = $2; outcode($1, &g, $4, &$6); } | LBRA con ',' con ',' '(' xlreg ')' { Gen g; g = nullgen; g.type = D_CONST; g.offset = $2; outcode($1, &g, $4, &$7); } /* * conditional trap */ | LTRAP rreg ',' sreg { outcode($1, &$2, $4, &nullgen); } | LTRAP imm ',' sreg { outcode($1, &$2, $4, &nullgen); } | LTRAP rreg comma { outcode($1, &$2, NREG, &nullgen); } | LTRAP comma { outcode($1, &nullgen, NREG, &nullgen); } /* * floating point operate */ | LFCONV freg ',' freg { outcode($1, &$2, NREG, &$4); } | LFADD freg ',' freg { outcode($1, &$2, NREG, &$4); } | LFADD freg ',' freg ',' freg { outcode($1, &$2, $4.reg, &$6); } | LFMA freg ',' freg ',' freg ',' freg { outgcode($1, &$2, $4.reg, &$6, &$8); } | LFCMP freg ',' freg { outcode($1, &$2, NREG, &$4); } | LFCMP freg ',' freg ',' creg { outcode($1, &$2, $6.reg, &$4); } /* * CMP */ | LCMP rreg ',' rreg { outcode($1, &$2, NREG, &$4); } | LCMP rreg ',' imm { outcode($1, &$2, NREG, &$4); } | LCMP rreg ',' rreg ',' creg { outcode($1, &$2, $6.reg, &$4); } | LCMP rreg ',' imm ',' creg { outcode($1, &$2, $6.reg, &$4); } /* * rotate and mask */ | LRLWM imm ',' rreg ',' imm ',' rreg { outgcode($1, &$2, $4.reg, &$6, &$8); } | LRLWM imm ',' rreg ',' mask ',' rreg { outgcode($1, &$2, $4.reg, &$6, &$8); } | LRLWM rreg ',' rreg ',' imm ',' rreg { outgcode($1, &$2, $4.reg, &$6, &$8); } | LRLWM rreg ',' rreg ',' mask ',' rreg { outgcode($1, &$2, $4.reg, &$6, &$8); } /* * load/store multiple */ | LMOVMW addr ',' rreg { outcode($1, &$2, NREG, &$4); } | LMOVMW rreg ',' addr { outcode($1, &$2, NREG, &$4); } /* * various indexed load/store * indexed unary (eg, cache clear) */ | LXLD regaddr ',' rreg { outcode($1, &$2, NREG, &$4); } | LXLD regaddr ',' imm ',' rreg { outgcode($1, &$2, NREG, &$4, &$6); } | LXST rreg ',' regaddr { outcode($1, &$2, NREG, &$4); } | LXST rreg ',' imm ',' regaddr { outgcode($1, &$2, NREG, &$4, &$6); } | LXMV regaddr ',' rreg { outcode($1, &$2, NREG, &$4); } | LXMV rreg ',' regaddr { outcode($1, &$2, NREG, &$4); } | LXOP regaddr { outcode($1, &$2, NREG, &nullgen); } /* * NOP */ | LNOP comma { outcode($1, &nullgen, NREG, &nullgen); } | LNOP rreg comma { outcode($1, &$2, NREG, &nullgen); } | LNOP freg comma { outcode($1, &$2, NREG, &nullgen); } | LNOP ',' rreg { outcode($1, &nullgen, NREG, &$3); } | LNOP ',' freg { outcode($1, &nullgen, NREG, &$3); } /* * word */ | LWORD imm comma { outcode($1, &$2, NREG, &nullgen); } | LWORD ximm comma { outcode($1, &$2, NREG, &nullgen); } /* * END */ | LEND comma { outcode($1, &nullgen, NREG, &nullgen); } /* * TEXT/GLOBL */ | LTEXT name ',' imm { outcode($1, &$2, NREG, &$4); } | LTEXT name ',' con ',' imm { outcode($1, &$2, $4, &$6); } | LTEXT name ',' imm ':' imm { outgcode($1, &$2, NREG, &$6, &$4); } | LTEXT name ',' con ',' imm ':' imm { outgcode($1, &$2, $4, &$8, &$6); } /* * DATA */ | LDATA name '/' con ',' imm { outcode($1, &$2, $4, &$6); } | LDATA name '/' con ',' ximm { outcode($1, &$2, $4, &$6); } | LDATA name '/' con ',' fimm { outcode($1, &$2, $4, &$6); } /* * RETURN */ | LRETRN comma { outcode($1, &nullgen, NREG, &nullgen); } rel: con '(' LPC ')' { $$ = nullgen; $$.type = D_BRANCH; $$.offset = $1 + pc; } | LNAME offset { $$ = nullgen; if(pass == 2) yyerror("undefined label: %s", $1->name); $$.type = D_BRANCH; $$.sym = $1; $$.offset = $2; } | LLAB offset { $$ = nullgen; $$.type = D_BRANCH; $$.sym = $1; $$.offset = $1->value + $2; } rreg: sreg { $$ = nullgen; $$.type = D_REG; $$.reg = $1; } xlreg: lr | ctr lr: LLR { $$ = nullgen; $$.type = D_SPR; $$.offset = $1; } lcr: LCR { $$ = nullgen; $$.type = D_CREG; $$.reg = NREG; /* whole register */ } ctr: LCTR { $$ = nullgen; $$.type = D_SPR; $$.offset = $1; } msr: LMSR { $$ = nullgen; $$.type = D_MSR; } psr: LSPREG { $$ = nullgen; $$.type = D_SPR; $$.offset = $1; } | LSPR '(' con ')' { $$ = nullgen; $$.type = $1; $$.offset = $3; } | msr seg: LSEG '(' con ')' { if($3 < 0 || $3 > 15) yyerror("segment register number out of range"); $$ = nullgen; $$.type = D_SREG; $$.reg = $3; $$.offset = NREG; } | LSEG '(' sreg ')' { $$ = nullgen; $$.type = D_SREG; $$.reg = NREG; $$.offset = $3; } fpscr: LFPSCR { $$ = nullgen; $$.type = D_FPSCR; $$.reg = NREG; } fpscrf: LFPSCR '(' con ')' { $$ = nullgen; $$.type = D_FPSCR; $$.reg = $3; } freg: LFREG { $$ = nullgen; $$.type = D_FREG; $$.reg = $1; } | LF '(' con ')' { $$ = nullgen; $$.type = D_FREG; $$.reg = $3; } creg: LCREG { $$ = nullgen; $$.type = D_CREG; $$.reg = $1; } | LCR '(' con ')' { $$ = nullgen; $$.type = D_CREG; $$.reg = $3; } cbit: con { $$ = nullgen; $$.type = D_REG; $$.reg = $1; } mask: con ',' con { int mb, me; ulong v; $$ = nullgen; $$.type = D_CONST; mb = $1; me = $3; if(mb < 0 || mb > 31 || me < 0 || me > 31){ yyerror("illegal mask start/end value(s)"); mb = me = 0; } if(mb <= me) v = ((ulong)~0L>>mb) & (~0L<<(31-me)); else v = ~(((ulong)~0L>>(me+1)) & (~0L<<(31-(mb-1)))); $$.offset = v; } ximm: '$' addr { $$ = $2; $$.type = D_CONST; } | '$' LSCONST { $$ = nullgen; $$.type = D_SCONST; memcpy($$.sval, $2, sizeof($$.sval)); } fimm: '$' LFCONST { $$ = nullgen; $$.type = D_FCONST; $$.dval = $2; } | '$' '-' LFCONST { $$ = nullgen; $$.type = D_FCONST; $$.dval = -$3; } imm: '$' con { $$ = nullgen; $$.type = D_CONST; $$.offset = $2; } sreg: LREG | LR '(' con ')' { if($$ < 0 || $$ >= NREG) print("register value out of range\n"); $$ = $3; } regaddr: '(' sreg ')' { $$ = nullgen; $$.type = D_OREG; $$.reg = $2; $$.offset = 0; } | '(' sreg '+' sreg ')' { $$ = nullgen; $$.type = D_OREG; $$.reg = $2; $$.xreg = $4; $$.offset = 0; } addr: name | con '(' sreg ')' { $$ = nullgen; $$.type = D_OREG; $$.reg = $3; $$.offset = $1; } name: con '(' pointer ')' { $$ = nullgen; $$.type = D_OREG; $$.name = $3; $$.sym = S; $$.offset = $1; } | LNAME offset '(' pointer ')' { $$ = nullgen; $$.type = D_OREG; $$.name = $4; $$.sym = $1; $$.offset = $2; } | LNAME '<' '>' offset '(' LSB ')' { $$ = nullgen; $$.type = D_OREG; $$.name = D_STATIC; $$.sym = $1; $$.offset = $4; } comma: | ',' offset: { $$ = 0; } | '+' con { $$ = $2; } | '-' con { $$ = -$2; } pointer: LSB | LSP | LFP con: LCONST | LVAR { $$ = $1->value; } | '-' con { $$ = -$2; } | '+' con { $$ = $2; } | '~' con { $$ = ~$2; } | '(' expr ')' { $$ = $2; } expr: con | expr '+' expr { $$ = $1 + $3; } | expr '-' expr { $$ = $1 - $3; } | expr '*' expr { $$ = $1 * $3; } | expr '/' expr { $$ = $1 / $3; } | expr '%' expr { $$ = $1 % $3; } | expr '<' '<' expr { $$ = $1 << $4; } | expr '>' '>' expr { $$ = $1 >> $4; } | expr '&' expr { $$ = $1 & $3; } | expr '^' expr { $$ = $1 ^ $3; } | expr '|' expr { $$ = $1 | $3; }